The place View.activity will get its main-actor isolation from – Ole Begemann

SwiftUI’s .activity modifier inherits its actor context from the encompassing operate. In the event you name .activity inside a view’s physique property, the async operation will run on the principle actor as a result of View.physique is (semi-secretly) annotated with @MainActor. Nevertheless, in case you name .activity from a helper property or operate that isn’t @MainActor-annotated, the async operation will run within the cooperative thread pool.

Right here’s an instance. Discover the 2 .activity modifiers in physique and helperView. The code is similar in each, but solely one in every of them compiles — in helperView, the decision to a main-actor-isolated operate fails as a result of we’re not on the principle actor in that context:

import SwiftUI

@MainActor func onMainActor() {
  print("on MainActor")
}

struct ContentView: View {
  var physique: some View {
    VStack {
      helperView
      Textual content("in physique")
        .activity {
          // We are able to name a @MainActor func with out await
          onMainActor()
        }
    }
  }

  var helperView: some View {
    Textual content("in helperView")
      .activity {
        // ❗️ Error: Expression is 'async' however shouldn't be marked with 'await'
        onMainActor()
      }
  }
}

This habits is attributable to two (semi-)hidden annotations within the SwiftUI framework:

1. The View protocol annotates its physique property with @MainActor. This transfers to all conforming varieties.

2. View.activity annotates its motion parameter with @_inheritActorContext, inflicting it to undertake the actor context from its use website.

Sadly, none of those annotations are seen within the SwiftUI documentation, making it very obscure what’s happening. The @MainActor annotation on View.physique is current in Xcode’s generated Swift interface for SwiftUI (Leap to Definition of View), however that function doesn’t work reliably for me, and as we’ll see, it doesn’t present the entire fact, both.

To essentially see the declarations the compiler sees, we have to have a look at SwiftUI’s module interface file. A module interface is sort of a header file for Swift modules. It lists the module’s public declarations and even the implementations of inlinable features. Module interfaces use regular Swift syntax and have the .swiftinterface file extension.

SwiftUI’s module interface is positioned at:

[Path to Xcode.app]/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS.sdk/System/Library/Frameworks/SwiftUI.framework/Modules/SwiftUI.swiftmodule/arm64e-apple-ios.swiftinterface

(There might be a number of .swiftinterface information in that listing, one per CPU structure. Choose any one in every of them. Professional tip for viewing the file in Xcode: Editor > Syntax Coloring > Swift permits syntax highlighting.)

Inside, you’ll discover that View.physique has the @MainActor(unsafe) attribute:

@accessible(iOS 13.0, macOS 10.15, tvOS 13.0, watchOS 6.0, *)
@_typeEraser(AnyView) public protocol View {
  // …
  @SwiftUI.ViewBuilder @_Concurrency.MainActor(unsafe) var physique: Self.Physique { get }
}

And also you’ll discover this declaration for .activity, together with the @_inheritActorContext attribute:

@accessible(iOS 15.0, macOS 12.0, tvOS 15.0, watchOS 8.0, *)
extension SwiftUI.View {
  #if compiler(>=5.3) && $AsyncAwait && $Sendable && $InheritActorContext
    @inlinable public func activity(
      precedence: _Concurrency.TaskPriority = .userInitiated,
      @_inheritActorContext _ motion: @escaping @Sendable () async -> Swift.Void
    ) -> some SwiftUI.View {
      modifier(_TaskModifier(precedence: precedence, motion: motion))
    }
  #endif
  // …
}

Armed with this data, the whole lot makes extra sense:

• When used inside physique, activity inherits the @MainActor context from physique.
• When used outdoors of physique, there isn’t any implicit @MainActor annotation, so activity will run its operation on the cooperative thread pool by default. (Except the view incorporates an @ObservedObject or @StateObject property, which someway makes your complete view @MainActor. However that’s a distinct matter.)

The lesson: in case you use helper properties or features in your view, contemplate annotating them with @MainActor to get the identical semantics as physique.

By the best way, word that the actor context solely applies to code that’s positioned immediately contained in the async closure, in addition to to synchronous features the closure calls. Async features select their very own execution context, so any name to an async operate can change to a distinct executor. For instance, in case you name URLSession.knowledge(from:) inside a main-actor-annotated operate, the runtime will hop to the worldwide cooperative executor to execute that technique. See SE-0338: Make clear the Execution of Non-Actor-Remoted Async Features for the exact guidelines.

I perceive Apple’s impetus to not present unofficial API or language options within the documentation lest builders get the preposterous concept to make use of these options in their very own code!

But it surely makes understanding so a lot more durable. Earlier than I noticed the annotations within the .swiftinterface file, the habits of the code originally of this text by no means made sense to me. Hiding the main points makes issues appear to be magic once they truly aren’t. And that’s not good, both.